We report the study of a random Lorentz gas with a reaction of isomerization
A⇌B between the two colors of moving particles elastically
bouncing on hard disks. The reaction occurs when the moving particles collide
on catalytic disks which constitute a fraction of all the disks. Under the
dilute-gas conditions, the reaction-diffusion process is ruled by two coupled
Boltzmann-Lorentz equations for the distribution functions of the colors. The
macroscopic reaction-diffusion equations with cross-diffusion terms induced by
the chemical reaction are derived from the kinetic equations. We use a
H-theorem of the kinetic theory in order to derive a macroscopic entropy
depending on the gradients of color densities and which has a non-negative
entropy production in agreement with the second law of thermodynamics.Comment: 14 pages, 3 eps-figure